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Query: UMLS:C0027497 (
nausea
)
23,468
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Twenty-seven children (12 boys, 15 girls, age range 3-11 years, weight range 10-40 kg) were treated with itraconazole oral solution 10 mg/mL given as pulse therapy for
tinea capitis
. The dosage regimen was 3 mg/kg per day given once daily in a fasting state with each pulse lasting 1 week. The first two pulses were separated by a 2-week off-drug period, and the second and third pulses had a 3-week period without drug between them. For each patient a second and third pulse were administered if there was clinical evidence of
tinea capitis
at the time-point when the next pulse was due. The overall severity of
tinea capitis
at pretherapy was classified as mild, moderate or severe with the aetiology being: Trichophyton tonsurans, 24 patients; T. violaceum, two patients and Microsporum canis, one patient. In 19 evaluable patients, 12 weeks after starting therapy, the numbers of pulses of itraconazole oral solution required to produce complete cure were, according to the severity of disease, mild
tinea capitis
(one pulse: four patients; two pulses: five), moderate disease (one pulse: two patients; two pulses: two; three pulses: two), and severe disease (three pulses: three patients). One patient with moderate severity
tinea capitis
was clinically clear after three pulses of therapy but mycological examination was positive. Seven patients were lost to follow-up and one discontinued therapy because of
nausea
. Itraconazole oral solution 3 mg/kg per day was generally well tolerated. Three children developed gastrointestinal adverse effects which were considered to be minor or 'nuisance' effects. The data from this preliminary report need to be confirmed in a larger group of patients. It remains to be seen whether itraconazole oral solution will become a practical alternative to the antifungal agents available in a liquid preparation for the treatment of
tinea capitis
.
...
PMID:Itraconazole oral solution for the treatment of tinea capitis. 976 58
The newer antifungal agents itraconazole, terbinafine and fluconazole have become available to treat onychomycosis over the last 10 years. During this time period these agents have superseded griseofulvin as the agent of choice for onychomycosis. Unlike griseofulvin, the new agents have a broad spectrum of action that includes dermatophytes, Candida species and nondermatophyte moulds. Each of the 3 oral antifungal agents, terbinafine, itraconazole and fluconazole, is effective against dermatophytes with relatively fewer data being available for the treatment of Candida species and nondermatophyte moulds. Itraconazole is effective against Candida onychomycosis. Terbinafine may be more effective against C. parapsilosis compared with C. albicans; furthermore with Candida species a higher dose of terbinafine or a longer duration of therapy may be required compared with the regimen for dermatophytes. The least amount of experience in treating onychomycosis is with fluconazole. Griseofulvin is not effective against Candida species or the nondermatophyte moulds. The main use of griseo-fulvin currently is to treat
tinea capitis
. Ketoconazole may be used by some to treat tinea versicolor with the dosage regimens being short and requiring the use of only a few doses. The preferred regimens for the 3 oral antimycotic agents are as follows: itraconazole - pulse therapy with the drug being administered for 1 week with 3 weeks off treatment between successive pulses; terbinafine - continuous once daily therapy; and fluconazole - once weekly treatment. The regimen for the treatment of dermatophyte onychomycosis is: itraconazole - 200mg twice daily for I week per month x 3 pulses; terbinafine - 250 mg/day for 12 weeks; or, fluconazole - 150 mg/wk until the abnormal-appearing nail plate has grown out, typically over a period of 9 to 18 months. For the 3 oral antifungal agents the more common adverse reactions pertain to the following systems, gastrointestinal (for example,
nausea
, gastrointestinal distress, diarrhoea, abdominal pain), cutaneous eruption, and CNS (for example, headache and malaise). Each of the new antifungal agents is more cost-effective than griseofulvin for the treatment of onychomycosis and is associated with high compliance, in part because of the shorter duration of therapy. The newer antifungal agents are generally well tolerated with drug interactions that are usually predictable.
...
PMID:A risk-benefit assessment of the newer oral antifungal agents used to treat onychomycosis. 1064 75
Tinea capitis
is a relatively common fungal infection of childhood. Griseofulvin has been the mainstay of management. However, newer oral antifungal agents are being used more frequently. A multicenter, prospective, randomized, single-blinded, non-industry-sponsored study was conducted in centers in Canada and South Africa to determine the relative efficacy and safety of griseofulvin, terbinafine, itraconazole, and fluconazole in the treatment of
tinea capitis
caused by Trichophyton species. The regimens for treating
tinea capitis
were griseofulvin microsize 20 mg/kg/day x 6 weeks, terbinafine [> 40 kg, one 250 mg tablet; 20-40 kg, 125 mg (half of a 250 mg tablet); < 20 kg, 62.5 mg (one-quarter of a 250 mg tablet)] x 2-3 weeks, itraconazole 5 mg/kg/day x 2-3 weeks, and fluconazole 6 mg/kg/day x 2-3 weeks. Patients were asked to return at weeks 4, 8, and 12 from the start of the study. Griseofulvin was administered for 6 weeks and the final evaluation was at week 12. Terbinafine, itraconazole, and fluconazole were administered for 2 weeks and the patient evaluated 4 weeks from the start of therapy. At this time, if clinically indicated, one extra week of therapy was given. There were 200 patients randomized to four treatment groups (50 in each group). At the final evaluation at week 12, the number of evaluable patients were griseofulvin, 46; terbinafine, 48; itraconazole, 46; and fluconazole, 46. Patients who discontinued therapy or were lost to follow-up were griseofulvin, 1/3; itraconazole, 0/4; terbinafine, 0/4; and fluconazole, 0/4. The causative organisms were Trichophyton tonsurans and T. violaceum species. Patients were regarded as effectively treated at week 12 if there was mycologic cure and either clinical cure or only a few residual symptoms. Effective treatment was recorded in, intention to treat, griseofulvin (46 of 50, 92.0%), terbinafine (47 of 50, 94.0%), itraconazole (43 of 50, 86.0%), and fluconazole (42 of 50, 84.0%) (p=0.33). Adverse effects were reported only in the griseofulvin group (gastrointestinal effects in six patients). Discontinuation from therapy due to adverse effects occurred only in the griseofulvin group (
nausea
in one patient). For the treatment of
tinea capitis
caused by the Trichophyton species, in this study, griseofulvin given for 6 weeks is similar in efficacy to terbinafine, itraconazole, and fluconazole given for 2-3 weeks. Each of the agents has a favorable adverse-effects profile.
...
PMID:Therapeutic options for the treatment of tinea capitis caused by Trichophyton species: griseofulvin versus the new oral antifungal agents, terbinafine, itraconazole, and fluconazole. 1173 92
Although griseofulvin is considered the standard treatment of
tinea capitis
in children, alternatives are being investigated. Our purpose was to determine the efficacy of itraconazole for kerion and noninflammatory
tinea capitis
. An open label study was performed on five patients. It was planned to treat them with itraconazole until they were mycologically and clinically cured. A 28-112-day course of 100 mg itraconazole daily, combined with a topical antifungal treatment resulted in clinical and mycological cure in all children. One child stopped taking itraconazole after 28 days, before it was clinically cured, because of
nausea
. Nevertheless, this child also achieved clinical and mycological cure. No other side-effects were reported. In long-term follow-up evaluation of between 2 and 3.5 years no recurrence or reinfection was observed. There was complete regrowth of hair, even after kerion. These findings and the review of the literature suggest that itraconazole offers an alternative to griseofulvin for the treatment of
tinea capitis
in children, although it is more expensive and not approved by German state authorities for this indication.
...
PMID:Itraconazole in the treatment of tinea capitis in children. Case reports with long-term follow-up evaluation. Review of the literature. 1185 29
The prevalence of ringworm of the scalp in many countries, and the fact that many of the current measures to control it are inconvenient for mass use, lend particular interest to the account given in this paper of mass treatment of
tinea capitis
in an Arab village in Israel. A total of 446 cases were treated, on an ambulatory basis, with a single daily dose (25-30 mg/kg) of griseofulvin, and it was found that clinical cure, confirmed by microscopy, was achieved in 3-6 weeks in the majority. All cases were cured after 10 weeks' treatment.A preliminary study on 25 hospitalized children had previously shown the drug to be effective and apparently safe, the only side-effects encountered in these children and in the Arab village being
nausea
, furunculosis and drug eruption. No relapses were seen in the 25 children, who were followed up for from two to six months.
...
PMID:Griseofulvin in the mass treatment of tinea capitis. 1378 30
Trichotillomania (TTM) is defined by the Diagnostics and Statistic Manual of Mental Disorders, 4th edition (DMS-IV) as hair loss from a patient`s repetitive self-pulling of hair. The disorder is included under anxiety disorders because it shares some obsessive-compulsive features. Patients have the tendency towards feelings of unattractiveness, body dissatisfaction, and low self-esteem (1,2). It is a major psychiatric problem, but many patients with this disorder first present to a dermatologist. An 11-year-old girl came to our department with a 2-month history of diffuse hair loss on the frontoparietal and parietotemporal area (Figure 1). She had originally been examined by a pediatrician with the diagnosis of alopecia areata. The patient`s personal history included hay fever and shortsightedness, and she suffered from varicella and mononucleosis. Nobody in the family history suffered from alopecia areata, but her father has male androgenetic alopecia (Norwood/Hamilton MAGA C3F3). The mother noticed that the child had had changeable mood for about 2 months and did not want to communicate with other persons in the family. The family did not have any pet at home. At school, her favorite subjects were Math and Computer Studies. She did not like Physical Education and did not participate in any sport activities during her free time. This was very strange because she was obese (body-mass index (BMI) 24.69). She was sometimes angry with her 13-year-old sister who had better results at school. The girl had suddenly started to wear a blue scarf. The parents did not notice that she pulled out her hair at home. Dermatological examination of the capillitium found a zone of incomplete alopecia in the frontoparietal and parietotemporal area, without inflammation, desquamation, and scaring. Hairs were of variable length (Figure 1). There was a patch of incomplete alopecia above the forehead between two stripes of hair of variable length (Figure 2). The hair pull test was negative along the edges of the alopecia. Mycological examination from the skin capillitium was negative. The trichoscopy and skin biopsy of the parietotemporal region of the capillitium (Figure 3) confirmed trichotillomania. Laboratory tests (blood count, iron, ferritin, transferrin, selenium, zinc, vitamin B12, folic acid, serology and hormones of thyroid gland) were negative. We referred the girl for ophthalmologic and psychological examination. Ophthalmologic examination proved that there was no need to add any more diopters. The psychological examination provided us with a picture in which she drew her family (Figure 4). The strongest authority in the family was the mother because she looked after the girls for most of the day. She was in the first place in the picture. The father had longer working hours and spent more time outside the home. He worked as a long vehicle driver. He was in the second place in the picture. There was sibling rivalry between the girls, but the parents did not notice this problem and preferred the older daughter. She was successful at school and was prettier (slim, higher, curly brown hair, without spectacles). Our 11-years-old patient noticed all these differences between them, but at her level of mental development was not able to cope with this problem. She wanted to be her sister's equal. The sister is drawn in the picture in the third place next to father, while the patient's own figure was drawn larger and slim even though she was obese. Notably, all three female figures had very nice long brown hair. It seemed that the mother and our patient had better quality of hair and more intense color than the sister in the drawing. The only hairless person in the picture was the father. The girl did not want to talk about her problems and feelings at home. Then it was confirmed that our patient was very sensitive, anxious, willful, and withdrawn. She was interested in her body and very perceptive of her physical appearance. From the psychological point of view, the parents started to pay more interest to their younger daughter and tried to understand and help her. After consultation with the psychiatrist, we did not start psychopharmacologic therapy for trichotillomania; instead, we started treatment with cognitive behavioral therapy, mild shampoo, mild topical steroids (e.g. hydrocortisone butyrate 0.1%) in solution and methionine in capsules. With parents' cooperation, the treatment was successful. The name trichotillomania was first employed by the French dermatologist Francois Henri Hallopeau in 1889, who described a young man pulling his hair out in tufts (3-5). The word is derived from the Greek thrix (hair), tillein (to pull), and mania (madness) (5). The prevalence of TTM in the general adult population ranges from 0.6% to 4%, and 2-4% of the general psychiatric outpatient population meet the criteria for TTM (2-5). The prevalence among children and adolescents has been estimated at less than 1% (5). The disease can occur at any age and in any sex. The age of onset of hair pulling is significantly later for men than for women (3). There are three subsets of age: preschool children, preadolescents to young adults, and adults. The mean age of onset is pre-pubertal. It ranges from 8 to 13 years (on average 11.3 years) (2-5). The occurrence of hair-pulling in the first year of life is a rare event, probably comprising <1% of cases (5). The etiology of TTM is complex and may be triggered by a psychosocial stressor within the family, such as separation from an attachment figure, hospitalization of the child or parent, birth of a younger sibling, sibling rivalry, moving to a new house, or problems with school performance. It has been hypothesized that the habit may begin with "playing" with the hair, with later chronic pulling resulting in obvious hair loss (2). Environment is a factor because children usually pull their hair when alone and in relaxed surroundings. The bedroom, bathroom, or family room are "high-risk" situations for hair-pulling (5). Men and women also differed in terms of the hair pulling site (men pull hair from the stomach/back and the moustache/beard areas, while women pull from the scalp) (3). Pulling hair from siblings, pets, dolls, and stuffed animals has also been documented, often occurring in the same pattern as in the patient (5). Genetic factors contributing to the development of TTM are mutations of the SLITRK1 gene, which plays a role in cortex development and neuronal growth. The protein SAPAP3 has been present in 4.2% of TTM cases and patients with obsessive-compulsive disorder (OCD). It may be involved in the development of the spectrum of OCD. A significantly different concordance rate for TTM was found in monozygotic (38.1%) compared with dizygotic (0%) twins in 34 pairs (3). The core diagnostic feature is the repetitive pulling of hairs from one`s own body, resulting in hair loss. The targeted hair is mostly on the scalp (75%), but may also be from the eyebrows (42%), eyelashes (53%), beard (10%), and pubic area (17%) (3,5). There are three subtypes of hair pulling - early onset, automatic, and focused. Diagnostic criteria for TTM according to DSM-IV criteria are (2,3,5): 1) recurrent pulling of one`s hair resulting in noticeable hair loss; 2) an increasing sense of tension immediately prior to pulling out the hair or when attempting to resist the behavior; 3) pleasure, gratification, or relief when pulling out the hair; 4) the disturbance is not better accounted for by another mental disorder and is not due to a general medical condition (e.g., a dermatologic condition); 5) the disturbance causes clinically significant distress or impairment in social, occupational, or other important areas of functioning. The differential diagnosis includes alopecia areata (Table 1) (6),
tinea capitis
, telogen effluvium, secondary syphilis, traction alopecia, loose anagen syndrome, lichen planopilaris, alopecia mucinosa, and scleroderma (2-5). Biopsy of an involved area (ideally from a recent site of hair loss) can help to confirm the diagnosis (5). On histologic examination, there are typically increased numbers of catagen and telogen hairs without evidence of inflammation. Chronic hair pulling induces a catagen phase, and more hairs will be telogen hairs. Pigment casts and empty anagen follicles are often seen. Perifollicular hemorrhage near the hair bulb is an indicator of TTM (2). Complications of TTM are rare, but they comprise secondary bacterial infections with regional lymphadenopathy as a result of picking and scratching at the scalp. Many patients play with and ingest the pulled hairs (e.g. touching the hair to lips, biting, and chewing). Trichophagia (ingestion of the hair) can lead to a rare complication named trichobezoar (a "hair ball" in stomach). This habit is present in approximately 5% to 30% of adult patients, but it is less frequent in children. Patient with trichophagia present with pallor,
nausea
, vomiting, anorexia, and weight loss. Radiologic examination and gastroscopy should not be delayed (2,4,5). The management of the disease is difficult and requires strong cooperation between the physician, patient, and parents. The dermatologist cannot take part in the therapy, strictly speaking, but without the psychological, psychopharmacologic, and topic dermatologic treatment a vicious circle will be perpetuated.
...
PMID:Trichotillomania: Bizzare Patern of Hair Loss at 11-Year-old Girl. 2747 78
